Wireless push camera

ABSTRACT

A push camera apparatus comprising: (a) at least one reel configured to rotate on a base to pay out or reel in a cable, the reel having a cable input; (b) the cable having a proximate end and a distal end, the proximate end being connected to the cable input; (c) a camera connected to the distal end and configured to transmit image data through the cable to the cable input; and (d) a communication module operatively connected to the cable input and configured to rotate with the reel, and to transmit wirelessly the image data from the cable input to a wireless controller.

REFERENCE TO RELATED APPLICATION

This application claims priority to the Provisional Application No.62/478,392 filed on Mar. 29, 2017, which is hereby incorporated byreference in its entirety including any appendices.

FIELD OF INVENTION

The present invention relates, generally, to a push camera, and, morespecifically, to a wireless push camera in which the images and controlof the camera are transmitted wirelessly to a control unit.

BACKGROUND

Push cameras are well-known and are used to inspect drain, sewer andstorm pipes. A conventional push camera comprises a reel which isrotatably mounted to a stationary base via a hub located in the centerof the reel. Within the reel is coiled a stiff cable having a cameramounted to its distal end. The proximate end of the cable is connectedto a display/operator control panel, which is typically mounted to thebase.

An electrical connection is provided between the camera anddisplay/operator control panel such that the camera receives controlsignals from the operator control panel and images from the camera aredisplayed on the display/operator control panel. Because the reel isrotatably mounted to the stationary base, a slip ring is used toelectrically connect the cable to the display/operator control panel.Additionally, often a slip ring is used within the camera such that thecamera can rotate within its housing to enable the camera to self-levelwithin the camera housing.

Using a conventional push camera is straightforward. The user insertsthe camera into the pipe to be inspected, and then pushes the cameradown the pipe with the cable. The reel rotates to pay out cable as theuser pushes the camera down the pipe. Such push cameras offer arelatively inexpensive way to inspect drain, sewer and storm pipes.

Although this design facilitates an inexpensive inspection of a pipe,Applicant has identified a number of shortcomings with a conventionalpush camera. First, because the communication path between the cameraand the display/operator control panel includes multiple slip rings, thesignal quality along the communication path is limited. This limitationtends to restrict the imaging to standard video, which is substandard bytoday's standards. Generally, higher definition (HD) optical images arepreferred for detecting cracks, blockage, and other pipe defects.

Second, conventional push cameras are not readily configurable withdifferent cables. Often either longer or stiffer cables may be requiredfor certain applications. However, a conventional push camera isessentially a unitary device with a fixed reel containing a cable.Changing a cable requires unwinding it from the reel, disconnecting it,connecting a new cable to the reel, and then reeling in the new cable.All this takes considerable time and is inconvenient, especiallyconsidering the length of some of these cables, which may be severalhundred feet long. Consequently, users tend to have a different pushcamera for each different cable type, which not only increases costs tothe user, but also tends to create clutter where space is alreadylimited (e.g. the inside of the truck).

Third, having the display/operator control operatively mounted to thebase of the push camera tends to be inconvenient. Specifically, aconventional push camera comprises a display/operator control panelhardwired to the camera and permanently affixed to the apparatus. Thiscan make viewing the display while pushing the cable difficult.Applicant recognizes it would be more convenient for the user to use ahandheld wireless device, such as a tablet, to control the push cameraand view the image data.

Therefore, there is a need for a push camera that addresses the needsidentified by Applicant. The present invention fulfills these needs,among others.

SUMMARY OF INVENTION

The following presents a simplified summary of the invention in order toprovide a basic understanding of some aspects of the invention. Thissummary is not an extensive overview of the invention. It is notintended to identify key/critical elements of the invention or todelineate the scope of the invention. Its sole purpose is to presentsome concepts of the invention in a simplified form as a prelude to themore detailed description that is presented later.

The present invention involves making the reel both electrically andmechanically discrete from the push camera unit. Rather than having thereel electrically connected to the base through a slip ring, the reel isinstead connected wirelessly to the controller/display. Because the slipring is eliminated, there is no need for a hub to accommodate the slipring. (A hub is required to provide coincident axes between the base andthe reel.) The elimination of the hub as a primary support for the reelfacilitates a simpler support mechanism between the reel and the base,including a support mechanism that is releasably engageable.

Such a configuration addresses the shortcomings of a conventional pushcamera as discussed above. First, because the communication path betweenthe camera and the display/operator control of the present inventionreduces the number of slip rings, the signal quality along thecommunication path is improved, thereby facilitating higher definition(HD) optical images. Second, because the reel is releasably engageablewith the base, reels having different cable configurations can bereadily interchanged with a base without the need to remove the cablefrom the reel, which is problematic as described above. Third, becausethe display/operator control is wirelessly connected to the reel, amobile display/operator control can be used, thereby facilitatingflexibility and convenience in controlling the push camera system withreadily available mobile devices, such as tablets, smart phones andportable computers.

Accordingly, one aspect of the invention is a push camera having adiscrete reel. In one embodiment, the push camera comprises: (a) atleast one reel configured to rotate on a base to payout or reel in acable, the reel having a cable input; (b) the cable having a proximateend and a distal end, the proximate end being connected to the cableinput; (c) a camera connected to the distal end and configured totransmit image data through the cable to the cable input; and (d) acommunication module operatively connected to the cable input andconfigured to rotate with the reel, and to transmit wirelessly the imagedata from the cable input to a wireless controller.

Yet another aspect of the invention is a push camera that eliminatesmultiple slip rings along the communication path between the camera andthe display/operator control. In one embodiment, the push cameracomprises: (a) at least one reel configured to rotate on a base to payout or reel in a cable, the reel having a cable input; (b) the cablehaving a proximate end and a distal end, the proximate end beingconnected to the cable input; (c) an HD camera connected to the distalend and configured to transmit HD image data along a communication pathfrom the camera through the cable to the cable input, wherein there isno more than one slip ring along the communication path.

BRIEF DESCRIPTION OF DRAWINGS

FIG. 1 is a perspective view of one embodiment of the push camera of thepresent invention.

FIG. 2 is exploded view of one embodiment of the push camera of thepresent invention having releasable communication and power modules.

FIG. 3 is shows the embodiment of FIG. 1 with the reel separated fromthe base.

DETAILED DESCRIPTION

Referring to FIG. 1, one embodiment of the push camera 100 of thepresent invention is shown. In this embodiment, the push camera 100comprises at least one reel 101 configured to rotate on a base 102 topay out/reel in a cable 103. The reel has a cable input 110. The cable103 has a proximate end 103 a and a distal end 103 b, with the proximateend 103 a being connected to the cable input 110. A camera 104 isconnected to the distal end 103 b, and is configured to transmit imagedata through the cable 103 to the cable input 110. A communicationmodule 107 is operatively connected to the cable input 110. Thecommunication module 107 is configured to rotate with the reel and totransmit wirelessly the image data from the cable input to a wirelesscontroller (not shown). These features and selected alternativeembodiments are described below in greater detail.

An important feature of the present invention is the wireless interfacebetween the reel and the display/operator control. Such a configurationeliminates the need for a slip ring between the reel and the base.Accordingly, in one embodiment, the push camera of the present inventionreduces the number of slip rings along the communication path betweenthe camera and the display/operator control compared to a conventionalpush camera. As mentioned above, eliminating slip rings along thecommunication path improves the integrity of the communication path,facilitating the use of higher resolution imaging, such as, for example,HD, and ultra HD video protocols. Accordingly, in one embodiment, thecamera, the cable, the cable input, and the communication module definea communication path for the image data from the camera to the wirelesscontroller, in which there is no more than one slip ring along thecommunication path. In one particular embodiment, the camera comprisesdigital self-leveling, thereby eliminating the need for a slip ring inthe camera, and thus resulting in a communication path with no sliprings. (In the prior art, often a slip ring is used within the camerasuch that the camera can rotate within its housing to enable the camerato self-level within the camera housing.)

As mentioned above, in one embodiment, the push camera of the presentinvention provides high definition (HD) images or video. As used herein,HD images or video refers to at least 720p video resolution transmittedusing HD-TVI protocol over twisted-pair conductors. In one embodiment,the resolution is at least 720p, or at least 1080p, or at least 1080i,or at least 1440p video resolution transmitted using HD-TVI protocolover twisted-pair conductors. Accordingly, in one embodiment, the camerais an HD camera and image data is HD image data, and the communicationmodule is configured for transmitting HD image data from the cable inputto the wireless controller.

Eliminating the slip ring between the reel and the base not onlyimproves the integrity of the signal from the camera as discussed above,but also eliminates the need for a hub. Hubs are required for a slipring in prior art push cameras to provide a point where axes of the baseand the reel are coincident. As mentioned above, the hub would typicallyinvolve an apparatus extending up from the base on one side of the reel,and an axle disposed in the center of the reel, connected to theapparatus. The hub/slip ring significantly complicates the installationand removal of the reel from the base. Additionally, the hub apparatusrestricts access to the reel's interior, and, consequently, the cablecan be payed out/reeled in only on one side of the reel. Conversely,elimination of the hub facilitates an entirely new way of securing thereel to the base. Specifically, in one embodiment, the connectionbetween the base and the reel relies on just the periphery of the reel,which, as discussed below, facilitates the interchangeability of reels,and allows the cable to be payed out/reeled in from either side of thereel because there is no hub in the way.

Another important feature of one embodiment of the invention is the reelbeing releasably engageable with the base. This allows different reelshaving different cables to be interchangeable with the same base. Inother words, one of the benefits of the push camera of the presentinvention is that changing cables no longer requires unreeling the cableand replacing it with a different cable, but rather each reel isassociated with a particular cable, so the user simply pops out one reeland pops in a different reel having a different cable if a differentcable is desired, depending on the needs of the application at hand. Itis anticipated that a user may have one push camera with several reelsof different cable configurations.

It should be understood that there are different mechanisms forreleasably engaging the base with the reel, and these differentmechanisms will be obvious to one of skill in the art in light of thisdisclosure. In one embodiment, the base comprises a rotation mechanismto facilitate the rotation of the reel relative to the base. Forexample, referring to FIGS. 1 and 3, the base comprises primaryroller(s) 109, and secondary roller(s) 305. These rollers are configuredto cooperate with outer and inner rails 105, 106 of the reel 101.Specifically, when the reel 101 is installed in the base 102, the outerrails 105 are supported by the primary rollers 109. In this embodiment,primary rollers 109 are configured to rotate, and therefore allow thereel to rotate without friction. To retain the reel in the base,secondary rollers 305 are configured to ride on the interior surface ofthe inner rails 105. Thus, the reel, when installed, is sandwichedbetween the primary rollers 109 and the secondary rollers 305. Althoughsecondary rollers are illustrated herein to retain the reel in the base,other embodiments are possible. For example, as disclosed in ProvisionalApplication No. 62/478,392, incorporated herein by reference, the basemay comprise a frame that extends over the reel to hold the reel to thebase.

Installation and removal of the reel in the base can be accomplish indifferent ways. In the embodiment illustrated in FIGS. 1-3, either oneor both of the secondary rollers 305 can be moved out of the way toallow the reel to seat on the primary rollers 109. For example, in oneembodiment, the secondary rollers 305 can be shifted (pushed) from theinterior side of the base to the exterior side of the base to allow thereel to be removed/inserted. Alternatively, in some embodiments, it maybe possible just to move one of the rollers 305 out of the way such thatthe reel can be tilted for installation/removal.

Although the rotation mechanism using the primary rollers 109 andsecondary rollers 305 as described herein is a simple and effective wayof releasably engaging the reel with the base, other mechanisms will beobvious to one of skill in the art in light of this disclosure.

In one embodiment, as shown in FIGS. 1-3, the base is configured to holdthe reel vertically. This is a common configuration for push cameras.However, given the fact that the push camera of the present inventiondoes not have a hub, other configurations are possible. For example, thereel can be mounted horizontally with primary rollers configured tosupport one side of the reel, while secondary rollers could beconfigured to roll on the upward-facing side of the reel to retain it inthe base. Alternatively, the need for secondary rollers may beeliminated if the reel is disposed on its side as gravity will hold itin the base. Still other embodiments and spatial configurations of thereel relative to the base will be obvious to those of skill in the artin light of this disclosure.

As mentioned above, an important aspect of the present invention is thecommunication module which provides a wireless link to thedisplay/operator control, and which is configured to rotate with thereel, thereby avoiding the need for a slip ring. The configuration ofthe communication module may vary according to a particular application.Generally, the communication module comprises a video encoder, a Wi-Fiinterface or other wireless interface, and an I/O interface for camerafunctions and illumination. This functionality is well known andcommercially available, and thus, will not be discussed herein indetail.

In one embodiment, as shown in FIG. 2, the communication module 107 isdiscrete from the reel 101 and is interchangeable with other reels ofthe push camera system of the present invention. Such an embodiment isgenerally preferred as it allows just one communication module (whichtends to be relatively expensive) to be used interchangeably with thedifferent reels a user may have. In other words, each reel does notrequire its own communication module, just one communication module isneeded for all the reels of a given push camera system. Such an approachlowers not only initial cost, but also maintenance costs—i.e., in theevent a communication module fails, it can simply be popped out of thereel and replaced without disassembling the reel or otherwise taking thereel out of service.

The power supply 108 to the push camera of the present invention canvary. Generally, a power supply is needed to provide power to thecommunication module as well as the camera. In one embodiment, the powersupply is a battery which is configured to rotate with the reel just asthe communication module 107 does. Additionally, in one embodiment, likethe location module 107 depicted in FIG. 2, the battery pack may bemodular and discrete from the reel, allowing it to be interchanged withdifferent reels. Having a discrete battery pack also facilitatesinterchanging different battery packs with the same reel, therebyallowing packs to be charged while others are in use. Battery packs arewell known and commercially available, and therefore will not bedescribed herein in detail.

Although use of the battery pack is described above and is generallypreferred, other embodiments are possible. For example, in oneembodiment, a battery pack is installed in the body of the reel, and itis inductively charged by the base. Such an embodiment is described, forexample, in in Provisional Application No. 62/478,392, incorporatedherein by reference. Alternatively, although slip rings are generallynot preferred along the communication path, it is within the scope ofthe invention that a slip ring may be used between the base and the reelto provide power to the reel. In other words, the prior art hubconfiguration may be used in the reel of the present invention forsupplying power to the reel, while image data is transmitted wirelesslybetween the communication module and a wireless display/operatorcontrol. Still other embodiments of supplying power to the reel will beobvious to those of skill in the art in light of this disclosure.

In one embodiment, the present invention uses a camera positioningsystem to indicate the camera's position within the pipe beinginspected. This is important for accurately mapping out defects orobstructions in the pipe being inspected. There are a variety ofdifferent camera positioning systems available. For example, in oneembodiment, the communication module also comprises an accelerometer forrotation measurement of the reel. Because the communication module isrotating as the cable is payed out/reeled in, the communication moduleis able to keep track of the reel's rotation, and thereby determine theamount of cable extending from the unit. Such accelerometers are known,and consequently will not be described in detail herein. Alternatively,the camera may be configured with a geospatial distance measurementdevice, thereby enabling the camera to transmit a signal indicative ofits position within the pipe. Again, such geospatial measurement devicesare known, and consequently will not be described in detail herein. Inyet another embodiment, the reel and/or base comprises sensors to detectand keep track of reel rotation within the base. For example, in oneembodiment, the sensor is an encoder disposed in the reel, which recordsa revolution each time it passes a marker (e.g., magnet) in the base.Alternatively, in another embodiment, magnetic strips are disposed inthe cable and an encoder in the base reads them as they pass by. Instill another embodiment, the sensor may be a laser counter similar to adesk mouse, as described in in Provisional Application No. 62/478,392,incorporated herein by reference. In another embodiment, the positionsystem relies on RFID. Still other approaches will be obvious to thoseof skill in the art in light of this disclosure. It should be understoodthat the position-determining systems described above may be usedindividually, or in any combination with each other.

An important aspect of the present invention is the wirelesscommunication between the communication module on the reel and awireless display/operator control (i.e., a wireless controller). Thereare a variety of different wireless controllers that can be used withthe present invention. Preferably, but not necessarily, the wirelesscontroller is a commercially available mobile (battery-operated)wireless device such as a smart phone, tablet, or notebook/laptopcomputer. The wireless controller, in one embodiment, is configured notonly to communicate wirelessly with the communication module, but alsoto interface with the Cloud to store/retrieve data.

In one embodiment, the device also comprises a trolley (not shown, see,for example, in Provisional Application No. 62/478,392, herebyincorporated by reference). The trolley may have wheels or other meansto facilitate its portability. Additionally, in one embodiment thewireless control may be releasably mounted to the trolley. In oneembodiment the base is detachable from the trolley. Such a mechanismallows for the convenient decoupling of the base from the trolley toallow it to be placed conveniently near the manhole or other openingthrough which the push camera is being inserted.

Having thus described a few particular embodiments of the invention,various alterations, modifications, and improvements will readily occurto those skilled in the art. Such alterations, modifications, andimprovements as are made obvious by this disclosure are intended to bepart of this description though not expressly stated herein, and areintended to be within the spirit and scope of the invention.Accordingly, the foregoing description is by way of example only, andnot limiting. The invention is limited only as defined in the followingclaims and equivalents thereto.

What is claimed is:
 1. A push camera apparatus comprising: at least onereel configured to rotate on a base to pay out or reel in a cable, saidreel having a cable input; said cable having a proximate end and adistal end, said proximate end being connected to said cable input; acamera connected to said distal end and configured to transmit imagedata through said cable to said cable input; and a communication moduleoperatively connected to said cable input and configured to rotate withsaid reel, and to transmit wirelessly said image data from said cableinput to a wireless controller.
 2. The push camera apparatus of claim 1,further comprising: a power supply for delivering power to said camera.3. The push camera apparatus of claim 2, wherein said power supply is abattery module operatively connected to said cable input and configuredto rotate with said reel.
 4. The push camera apparatus of claim 1,wherein said communication module comprises at least a video encoder, aWi-Fi interface, and control I/O interface for camera functions andillumination.
 5. The push camera apparatus of claim 4, wherein saidcommunication module also comprises an accelerometer for rotationmeasurement of said reel in order to gauge how much cable has beendeployed from the reel.
 6. The push camera apparatus of claim 1, whereinsaid communication module is releasably engaged with said reel such thatsaid communication module is interchangeable with other reels.
 7. Thepush camera apparatus of claim 1, further comprises: said base.
 8. Thepush camera apparatus of claim 7, wherein said reel is releasablyengageable with said base.
 9. The push camera apparatus of claim 8,wherein said base is configured to hold said reel vertically.
 10. Thepush camera apparatus of claim 1, wherein said camera is an HD cameraand image data is HD image data, and said communication module isconfigured for transmitting HD image data from said cable input to saidwireless controller.
 11. The push camera apparatus of claim 1, whereinsaid camera, said cable, said cable input, said communication module,and said wireless controller define a communication path for said imagedata from said camera to said wireless controller, wherein there is nomore than one slip ring along said communication path
 12. The pushcamera apparatus of claim 11, wherein said camera comprises digitalself-leveling, and wherein said communication path comprises no sliprings.
 13. The push camera apparatus of claim 1, further comprising: ageospatial distance measurement device.
 14. The push camera apparatus ofclaim 1, further comprising a second reel configured to rotate on saidbase to pay out or reel in a second cable, wherein said second reel isinterchangeable with said reel on said base, said second reel having acable input, and a second cable having a different length and/ordifferent stiffness form said cable, said second cable having aproximate end and a distal end, said proximate end being connected tosaid cable input of said second reel.
 15. The push camera apparatus ofclaim 14, wherein said second reel is configured for releasably engagingsaid communication module.
 16. The push camera apparatus of claim 14,wherein said second reel is configured for releasably engaging a powermodule, said power module being interchangeable with said reel and saidsecond reel.
 17. A push camera comprising at least one reel configuredto rotate on a base to payout or reel in a cable, said reel having acable input; said cable having a proximate end and a distal end, saidproximate end being connected to said cable input; an HD cameraconnected to said distal end and configured to transmit HD image dataalong a communication path from said camera through said cable to saidcable input, wherein there is no more than one slip ring along saidcommunication path.
 18. The push camera apparatus of claim 17, whereinsaid camera comprises digital self-leveling, and wherein saidcommunication path comprises no slip rings.
 19. The push cameraapparatus of claim 17, further comprising a communication moduleoperatively connected to said cable input and configured to rotate withsaid reel, and to transmit wirelessly said image data from said cableinput to a wireless controller
 20. The push camera apparatus of claim17, further comprising a battery module operatively connected to saidcable input and configured to rotate with said reel.